Molecular sieving using nanofilters: past, present and future.
about
High throughput protein nanocrystal fractionation in a microfluidic sorterIon-selective permeability of an ultrathin nanoporous silicon membrane as probed by scanning electrochemical microscopy using micropipet-supported ITIES tips.Low-volume liquid delivery and nanolithography using a nanopipette combined with a quartz tuning fork-atomic force microscope.Dynamics of individual polymers using microfluidic based microcurvilinear flowContinuous-flow bioseparation using microfabricated anisotropic nanofluidic sieving structures.Quantized water transport: ideal desalination through graphyne-4 membrane.Morphological Characterization of the Polyflux 210H Hemodialysis Filter PoresAnalysis of gene expression on anodic porous alumina microarrays.Rectification of nanopores at surfacesOn the propagation of concentration polarization from microchannel-nanochannel interfaces. Part I: Analytical model and characteristic analysis.High-Performance Silicon Nanopore Hemofiltration Membranes.Functionalization of a nanopore: the nuclear pore complex paradigm.Versatile ultrathin nanoporous silicon nitride membranes.Nanofluidics in chemical analysis.Theoretical Application of Irreversible (Nonequilibrium) Thermodynamic Principles to Enhance Solute Fluxes across Nanofabricated Hemodialysis Membranes.Study of uremic toxin fluxes across nanofabricated hemodialysis membranes using irreversible thermodynamics.Nanofluidics in two-dimensional layered materials: inspirations from nature.The Emerging Role of Nanotechnology in Cell and Organ Transplantation.Tunable reverse electrodialysis microplatform with geometrically controlled self-assembled nanoparticle network.Fabrication techniques enabling ultrathin nanostructured membranes for separations.Relationship between frequency and deflection angle in the DNA prism.Model inspired by nuclear pore complex suggests possible roles for nuclear transport receptors in determining its structurePoisson-Boltzmann-Nernst-Planck model.Computer simulation of liquid-vapor coexistence of confined quantum fluids.Entropic force on granular chains self-extracting from one-dimensional confinement.Electric-field-assisted protein transport, capture, and interferometric sensing in carbonized porous silicon films.Electric conductance of highly selective nanochannels.Size-based proteins separation using polymer-entrapped colloidal self-assembled nanoparticles on-chip.An EQT-based cDFT approach for thermodynamic properties of confined fluid mixtures.Diverging Time Scale in the Dimensional Crossover for Liquids in Strong Confinement.Splitting of the Universality Class of Anomalous Transport in Crowded Media.Wetting Driven by Thermal Fluctuations on Terraced Nanostructures.Effects of rotational symmetry breaking in polymer-coated nanopores.Textural versus electrostatic exclusion-enrichment effects in the effective chemical transport within the cortical bone: a numerical investigation.Numerical investigation of molecular nano-array in potential-energy profile for a single dsDNA.Entropic trap purification of long DNA.Continuous high throughput nanofluidic separation through tangential-flow vertical nanoslit arrays.An electrokinetic study on tunable 3D nanochannel networks constructed by spatially controlled nanoparticle assembly.A hybrid dielectrophoretic and hydrophoretic microchip for particle sorting using integrated prefocusing and sorting steps.Particle separation using virtual deterministic lateral displacement (vDLD).
P2860
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P2860
Molecular sieving using nanofilters: past, present and future.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Molecular sieving using nanofilters: past, present and future.
@en
Molecular sieving using nanofilters: past, present and future.
@nl
type
label
Molecular sieving using nanofilters: past, present and future.
@en
Molecular sieving using nanofilters: past, present and future.
@nl
prefLabel
Molecular sieving using nanofilters: past, present and future.
@en
Molecular sieving using nanofilters: past, present and future.
@nl
P2860
P1433
P1476
Molecular sieving using nanofilters: past, present and future
@en
P2093
Jongyoon Han
Reto B Schoch
P2860
P356
10.1039//B714128A
10.1039/B714128A
P50
P577
2007-11-26T00:00:00Z